J. Zhang scite author profile

We report on the observation of new properties of secondary cosmic rays Li, Be, and B measured in the rigidity (momentum per unit charge) range 1.9 GV to 3.3 TV with a total of 5.4×10^{6} nuclei collected by AMS during the first five years of operation aboard the International Space Station. The Li and B fluxes have an identical rigidity dependence above 7 GV and all three fluxes have an identical rigidity dependence above 30 GV with the Li/Be flux ratio of 2.0±0.1. The three fluxes deviate from a single power law above 200 GV in an identical way. This behavior of secondary cosmic rays has also been observed in the AMS measurement of primary cosmic rays He, C, and O but the rigidity dependences of primary cosmic rays and of secondary cosmic rays are distinctly different. In particular, above 200 GV, the secondary cosmic rays harden more than the primary cosmic rays.

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Lattice type of fracture model for concrete

Liu

Deng

Zhang

et al. 2007

Theoretical and Applied Fracture Mechanics

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Concrete is usually described as a three-phase material, where matrix, aggregate and interface zones are distinguished. The beam lattice model has been applied widely by many investigators to simulate fracture processes in concrete. Due to the extremely large computational effort, however, the beam lattice model faces practical difficulties. In our investigation, a new lattice called generalized beam (GB) lattice is developed to reduce computational effort. Numerical experiments conducted on a panel subjected to uniaxial tension show that the GB lattice model can reproduce the load-displacement curves and crack patterns in agreement to what are observed in tests. Moreover, the effects of the particle overlay on the fracture process are discussed in detail.

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Triton identification in the ⁶Li(n, t)⁴He reaction measurement with the grid ionization chamber at CSNS Back-n white neutron source

et al. 2019

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Component assembling model and its application to quasi-brittle damage

Deng

Liu

Zhang

et al. 2006

Theoretical and Applied Fracture Mechanics

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Potential energy can be approximated by ''pair-functional'' potentials which is composed of pair potentials and embedding energy. Pair potentials are grouped according to discrete directions of atomic bonds such that each group is represented by an orientational component. Meanwhile, another kind of component, the volumetric one is derived from embedding energy. Damage and fracture are the changing and breaking of atomic bonds at the most fundamental level and have been reflected by the changing of these components' properties. Therefore, material is treated as a component assembly, and its constitutive equations are formed by means of assembling these two kinds of components' response functions. This material model is referred to as the component assembling model. Theoretical analysis and numerical computing indicate that the proposed model has the capacity of reproducing some results satisfactorily, with the advantages of physical explicitness and intrinsic induced anisotropy, etc.

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J. Zhang

Observation of New Properties of Secondary Cosmic Rays Lithium, Beryllium, and Boron by the Alpha Magnetic Spectrometer on the International Space Station

Lattice type of fracture model for concrete

Triton identification in the ⁶Li(n, t)⁴He reaction measurement with the grid ionization chamber at CSNS Back-n white neutron source

Component assembling model and its application to quasi-brittle damage

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J. Zhang

Observation of New Properties of Secondary Cosmic Rays Lithium, Beryllium, and Boron by the Alpha Magnetic Spectrometer on the International Space Station

Lattice type of fracture model for concrete

Triton identification in the 6Li(n, t)4He reaction measurement with the grid ionization chamber at CSNS Back-n white neutron source

Component assembling model and its application to quasi-brittle damage

Contact Info

Product

Resources

About

Triton identification in the ⁶Li(n, t)⁴He reaction measurement with the grid ionization chamber at CSNS Back-n white neutron source